The first hologram of the dawn of life

Scientists have obtained the first 3D images of primitive organisms thanks to a new technique

Scientists have obtained the first 3D images of primitive organisms thanks to a new technique that allows "virtual dissection " of fossils dating to half a billion years.

Picture 1 of The first hologram of the dawn of life
Embryos of penis penis (Markuelia), overall (upper) and partial embryos have developed into the digestive tract (bottom). (Photo: Reuters) Among them, embryonic images of ancient penis worms (Markuelia) are found in China and Siberia, living in the Cambrian period.

This new imaging technique reveals all the details that traditional methods cannot bring, from the first cell division phase to the stage just before the animal hatches.

Researchers at the University of Bristol, UK, say their technique helps push the boundaries of science back into the past in the same way that microelectronic scanning techniques did half a century ago."We are looking back at the dawn of life," said Dr. Phil Donoghue, the leader.

"Because of their small size and fragile conservation capabilities, the embryos have become the rarest fossils. But these fossils are more accurate because they contain information about evolutionary change. happened in embryos over 500 million years ago, " said Donoghue.

In the past, if we wanted to study fossil embryos, one had to observe them from the outside, or cut the embryos into thin slices - the action would naturally destroy them.

But the new method, also known as synchroton-radiation x-ray tomographic microscopy (or SRXTM), helps these tiny specimens remain intact, while creating detailed graphics of the structure of them.

The team used a large particle accelerator in Switzerland to capture the fossils. Then they put the information into a computer to produce a three-dimensional image of the internal structure at an extremely meticulous level.

"It's similar to a medical CT scanner, but the resolution is 2,000 to 3,000 times. We can see details as small as a thousandth of a millimeter," says Donoghue.

"We can observe any fossil and any part, inside and out, without touching it and then dissecting it in virtual form as you like."

The team said their discovery could turn back the evolutionary history of arthropods like insects and spiders.

T. An

Update 18 December 2018
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